DE102007036301A1 - Heat exchanger housing, heat exchanger or assembly with one or more heat exchangers, exhaust gas recirculation system, charge air supply system and use of the heat exchanger - Google Patents

Abstract

The invention relates to a heat exchanger housing (1) for at least one heat exchanger for heat exchange between a first fluid, in particular an exhaust gas or a charge air, and a second fluid, in particular a coolant (6). According to the concept of the invention, a bypass channel (40) is integrated in the heat exchanger housing (1), the housing having a housing body (10) with a chamber designed to flow through the second fluid and to receive a number of flow channels through which the first fluid flows ; a bypass channel (40) designed to flow through the first fluid; wherein the chamber and the bypass channel (40) are formed integrally with the housing body (10).

Description

The The invention relates to a heat exchanger housing for at least one heat exchanger for heat exchange between a first fluid and a second fluid. Next concerns the invention a heat exchanger or a structural unit with one or more heat exchangers for heat exchange between a first fluid and a second fluid. The invention also relates to an exhaust gas recirculation system, a charge air delivery system and use of the heat exchanger or assembly.

A Exhaust gas recirculation or charge air supply, in particular with cooled exhaust gas and / or charge air is used in today's vehicles due to legal regulations, to the particulate matter and pollutants, in particular nitrogen oxide emissions, too reduce. On the one hand, the requirements for exhaust gas pollution increase and the exhaust mass flows to be handled, on the other hand are such systems and in particular the necessary heat exchanger developments heavily cost-driven.

A heat exchanger basically serves for heat exchange between a first fluid, in particular an exhaust gas in the case of an exhaust gas cooler or a charge air in the case of a charge air cooler, and a second fluid, in particular a coolant, for example a water-based coolant or another liquid or gaseous coolant. In particular, exhaust gas coolers are optionally removed with a bypass tube to achieve the operating temperature of an internal combustion engine faster. A bypass channel can be closed, for example, via a flap as soon as the operating temperature is reached on the internal combustion engine and a heat exchanger is provided for receiving the cooling operation. For example, in DE 10 203 003 A1 discloses a single stage heat exchanger system with an integrated bypass channel and by-pass damper. Also known is a two-stage system of heat exchangers with integrated bypass channel with bypass flap DE 600 243 90 T2 , Basically, it is known to reduce costs, a bypass channel and / or a bypass valve, for example according to DE 199 62 863 A1 or DE 198 41 927 A1 to integrate in a module together with a heat exchanger. Such systems or modules are still in need of improvement. Heretofore, in order to produce such systems and / or modules, a bypass duct in the form of a bypass pipe has to be manufactured separately from the module or the system and cassettes into a heat exchanger housing and subsequently with a suitable connection part of the heat exchanger, for example a bottom at the block of the heat exchanger, be welded.

At this point is the invention of whose task it is a Device, in particular a heat exchanger housing and a heat exchanger, specify at which the integration a bypass channel is made easier and more cost-effective.

Concerning the device is the object of the invention with a heat exchanger housing solved the type mentioned, the invention according to a Housing body has a flow through of the second fluid and for receiving a number of the first fluid permeable Flow channels designed chamber; one to Flow through the bypass passage designed by the first fluid; the chamber and the bypass channel being integral with the Housing body are formed. In other words, the concept of the invention provides that the bypass channel in the heat exchanger housing is integrally integrated. This has the advantage that the Bypass channel and the housing on particularly simple and cost-saving manner in a single manufacturing step to produce are. This eliminates the cost-generating and partly elaborate separate manufacturing steps for a bypass tube or the Kassetierung a bypass tube in one Casing.

It It has been shown that a cost saving already due to the Material costs are higher, the longer one elongated extension of the bypass channel or the heat exchanger housing is.

Concerning The device is the object of the invention by means of a heat exchanger or a structural unit with one or solved several heat exchangers of the type mentioned, the according to the invention comprises: a block to each other separate and heat exchanging leadership of the first and second fluid, which block is a heat exchanger housing with integrated bypass channel according to the concept of the invention and one in the heat exchanger housing recorded number of the first fluid permeable Has flow channels.

Preferably the first fluid is formed as an exhaust gas and / or a charge air. A heat exchanger may preferably be used as an exhaust gas heat exchanger and / or charge air heat exchanger may be formed. Preferably is the second fluid in the form of a coolant, for example a water-based coolant or other liquid Coolant formed. Also suitable is a gaseous Be coolant.

The concept of the invention also leads to an exhaust gas recirculation system for an internal combustion engine, comprising an exhaust gas recirculation, a compressor and a heat exchanger of the aforementioned type in the form of an exhaust gas heat exchanger, in particular an exhaust gas cooler.

The Concept of the invention also leads to a charge air supply system for an internal combustion engine, having a charge air intake, an air filter, a compressor and a heat exchanger of the aforementioned type in the form of a charge air heat exchanger, in particular intercooler.

Further the invention leads to a use of the heat exchanger or the assembly of the aforementioned type for an internal combustion engine, in particular a diesel engine or gasoline engine of a motor vehicle.

advantageous Further developments of the invention are the dependent claims to take in particular and give advantageous opportunities the concept described above within the framework of the task as well as to realize further advantages.

Preferably the bypass channel is the only bypass channel and / or extends along the entire length of an oblong Extension of the housing body. In particular, can the bypass channel to practically the same length as the chamber exhibit. The bypass channel may be in cross-section of an application be designed accordingly, in particular rectangular, oval or be formed semi-oval.

Preferably is the chamber for receiving the flow channels two heat exchangers, in particular a high-temperature heat exchanger and a low-temperature heat exchanger formed. In the context of a particularly preferred development is to an inner side of the hous sekörpers a pedestal formed integrally with the housing body. Preferably, the base is transverse to the elongate extent arranged the housing body. Advantageously he has a trapezoidal cross section. Thus, you can in each case the flow channels of a first heat exchanger and a second heat exchanger into one through the base marked first part or second part of the chamber can be arranged. A cross-sectionally trapezoidal base allows this a practically self-aligning arrangement of the flow channels.

According to one Further development of the invention has the heat exchanger housing at least one connection part, preferably an input side and an output-side connection part, for connecting at least one first fluid port for the first fluid. Especially the connection part is integral with the housing body educated. A development of the heat exchanger provides advantageous that a first fluid port with the flow channels fluidly connected to the connection part of the housing body is arranged. The first fluid connection may be, for example, as a box and / or a box lid may be formed, preferably in the form of a diffuser. An inlet-side fluid connection can as an inlet diffuser and / or outlet-side fluid connection be formed as an exit diffuser. Furthermore It has proved to be advantageous, a bypass control device at the heat exchanger for adjusting the exhaust system provided by the at least one heat exchanger. The Control device can in a particularly advantageous manner in the fluid connection be integrated. For example, a bypass flap in a Be integrated diffuser. Other possible advantageous Control devices may additionally or alternatively in the form of a valve device, for example a controllable Valve, be formed.

The Connecting part of the heat exchanger housing can in a particularly preferred development to be - on the one hand - in particular housing inside, a block closure element for separating the chamber and a first fluid port for the first fluid at the connection part of the housing body to order and / or - on the other hand - in particular outside the housing, the fluid connection at the To arrange connection part. The block closure element, for example in the form of a floor, this is preferably with one or more Through openings for the flow channels Mistake.

in the Within the scope of a particularly preferred development, it is intended to form the connection part as a flange. Preferably, the Flange inside the housing and / or outside of the housing, a bead, which preferably for receiving a seal serves. It has been shown that this is a particularly advantageous and fluid-tight separation of a first fluid in the flow channels or a first fluid port and a second fluid in the Chamber is possible.

Preferably The heat exchanger housing also has a second one Fluid connection for the second fluid, wherein the at least a second fluid port, such as a fluid inlet and a fluid outlet port integral with the housing body is formed. In a particularly advantageous manner, a second fluid connection formed in the form of a neck. This has proved particularly suitable proven to connect a conduit for the second fluid.

In a form combining the aforementioned developments, the heat exchanger housing is particularly advantageously provided with a connection part for connecting at least the first fluid connection for the first fluid and a second fluid connection for the second fluid, wherein the first and second fluid ports are formed integrally with the housing.

in the Within the scope of a particularly preferred development, it is provided that a connection part has an inlet border for the first Fluid has and this inlet border and another inlet border of the bypass channel at the same place of an elongated extension the housing body are formed. Especially can do this by using the inlet border in the connector as a common Be part of the housing body formed. With others Words, a connection part - for example in shape an eight-shaped flange - a first opening to the chamber and a second opening to the bypass channel exhibit. Additionally or alternatively, the Connecting part, also with combination of the aforementioned developments, and a second fluid port at the same location of an elongated Extension of the housing body may be formed. Preferably, for this purpose, the second fluid connection to the connection part formed as a common part of the housing body. This has the advantage that a second fluid - in particular a Coolant - and a first fluid - for example a Exhaust gas and / or a charge air - practically at the same place the elongate extent of the heat exchanger housing be fed and discharged and thus over a particularly long way along the elongated extension be led side by side - this leads to a particularly advantageous optimized cooling performance a heat exchanger.

Preferably is the heat exchanger housing with a number of integral with the housing body provided formed cooling fins. Cooling fins can in particular circumferentially and / or along an elongated Extension of the housing body run. Depending on The cooling fins may be needed for the sake of simplicity on the bypass channel and the chamber part of the housing through run. Basically, the cooling fins as needed and the amount of heat to be dissipated be designed or additionally or alternatively as reinforcing ribs be designed.

It has been shown that the design of the heat exchanger housing is particularly preferred as an aluminum casting. in principle the heat exchanger housing can also be used as a steel or be formed as a plastic part - preferably as a precision casting or injection molded part.

embodiments The invention will now be described below with reference to FIG. These the embodiments should not necessarily be to scale rather, the drawing is where explanatory useful, in a schematized and / or slightly distorted form. With regard to additions from the drawing directly recognizable teachings will be relevant to the state of the art Technology directed. It should be noted that manifold Modifications and changes concerning the form and the Detail of an embodiment can be made without deviate from the general idea of the invention. The in the description, features disclosed in the drawings and in the claims The invention can be used individually as well as in any desired Combination for the development of the invention essential be. In addition, fall within the scope of the invention, all combinations from at least two of the in the description, the drawing and / or The features disclosed in the claims. The general idea The invention is not limited to the exact form or the detail of the preferred ones shown and described below Embodiment or limited to an article, which would be limited compared to the one in claimed in the claims subject. At specified Design ranges should also be within the limits specified lying values are disclosed as limits and can be used arbitrarily and claimable.

in the Individual shows the drawing in:

1 a three-dimensional perspective view of a particularly preferred embodiment of the heat exchanger housing;

2 FIG. 3: a three-dimensional partial perspective view of the heat exchanger housing of FIG 1 ,

1 and 2 show a heat exchanger housing 1 for the arrangement of the exhaust gas flow-through flow channels of a high-temperature heat exchanger, not shown 2 and the exhaust gas flow through flow channels of a non-illustrated low-temperature heat exchanger 3 each in a first part 20 or a second part 30 a chamber of the housing body 10 the heat exchanger housing 1 , This housing for the parts 20 . 30 The chamber is made of a cross-sectionally trapezoidal and integral with the housing body 10 formed base 11 marked, with the trapezoidal design of the base 11 for self-aligning arrangement of the high temperature heat exchanger 2 and the low-temperature heat exchanger 3 in the parts 20 . 30 the chamber serves. The heat exchanger housing 1 also has a bypass channel 40 on which by a partition 13 from the parts 20 . 30 the chamber is separated. The base 11 is integral with the partition 13 educated.

Overall, the designed to flow through exhaust bypass channel 40 and the parts 20 . 30 the chamber integral with the housing body 10 educated. On the outside are the parts 20 . 30 of the Chamber and the bypass channel 40 from a wall 5 of the housing body 10 limited, wherein in a section transverse to the elongate extent of the housing 1 the wall 5 and the partition 13 assume an octagonal shape having a respective input-side and output-side first opening 7.1 respectively. 7.2 to the first part 20 or second part 30 the chamber and an input side second opening 9.1 and 9.2 to the bypass channel 40 form.

The heat exchanger housing 1 is thus the flow with exhaust gas 8th through the openings 7.1 . 7.2 and or 9.1 . 9.2 designed.

In addition, is integral with the housing body 10 an inlet side second fluid port 15.1 and an outlet-side second fluid port 15.2 for supplying or discharging a coolant 6 each formed in the form of a nozzle.

In a particularly advantageous manner realized in the 1 and 2 described embodiment of a heat exchanger housing an inlet border 17 a first part 20 or a second part 30 the chamber and an inlet border 19 of the bypass channel 40 and a second fluid port 15.1 respectively. 15.2 as a common connection part 21 respectively. 31 of the housing body 10 , The input-side connection part 21 as well as the output side connector 31 are presently each formed in the form of a achtförmigen flange, the - eckseitig to a part 20 . 30 the chamber - with mounting holes 23 having eyes 25 are provided to attach it outside the housing designed as a diffuser box cover for supplying or discharging the exhaust gas. Another with a mounting hole 23 provided eye 25 at the connection part 21 respectively. 31 is centrally below the bypass channel 40 arranged.

In addition, the connection part 21 . 31 with a bead 27 provided for receiving a seal, each having a diffuser on the connection part 21 . 31 To arrange sealing and thus a seal of the parts 20 . 30 guided coolant to allow the exhaust gas.

On an inside 29 of the connection part 21 . 31 is in a manner not shown, a block closure element in the form of a floor can be fixed. Such a floor is provided with a plurality of passage openings for receiving the flow channels of the high-temperature heat exchanger 2 or the low-temperature heat exchanger 3 Mistake. In a manner not shown, additional bottoms of each high-temperature heat exchanger 2 or low-temperature heat exchanger 3 at the base 11 to be ordered.

This is within the scope of the previously described embodiment of a heat exchanger housing 10 a housing body 1 provided with a for flow of coolant and for receiving a number of exhaust flow-through flow channels designed chamber as well as designed for flow with exhaust bypass channel 40 both integral with the housing body 10 are formed. In addition, the housing body 10 according to the embodiment described above in a particularly advantageous manner with connection parts 21 . 31 be formed in one piece, the corresponding borders 17 . 19 the chamber and the bypass channel 40 as well as connecting pieces 15.1 . 15.2 unite for the coolant and further advantageous housing arrangement for a diffuser on the outside and a bottom housing inside are formed. This not only allows a particularly cost-effective, but also particularly simple production of a heat exchanger, since the heat exchanger housing in a manufacturing step, in this case in the context of a cast aluminum, can be produced. In a modification of the present embodiment, the heat exchanger housing may also be manufactured as a steel investment casting or as a plastic injection molded part.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 10203003 A1 [0003]
• - DE 60024390 T2 [0003]
• - DE 19962863 A1 [0003]
• - DE 19841927 A1 [0003]

Claims (21)

Heat exchanger housing ( 1 ) for at least one heat exchanger, in particular a high-temperature and a low-temperature heat exchanger ( 2 . 3 ), for heat exchange between a first fluid, in particular an exhaust gas ( 8th ) or a charge air, and a second fluid, in particular a coolant ( 6 ), comprising a housing body having: - a chamber designed to flow through the second fluid and to receive a number of flow passages through which the first fluid flows; A bypass channel designed for the passage of the first fluid ( 40 ); the chamber and the bypass channel ( 40 ) integral with the housing body ( 10 ) are formed. Heat exchanger housing ( 1 ) according to claim 1 further comprising at least one connecting part ( 21 . 31 ) for connecting at least one first fluid connection for the first fluid, wherein the at least one connection part ( 21 . 31 ) integral with the housing body ( 10 ) is formed. Heat exchanger housing ( 1 ) according to claim 1 or 2; characterized in that a connection part ( 21 . 31 ) as a flange, preferably as a flange with bead ( 27 ) is formed, preferably with a bead ( 27 ) for receiving a seal. Heat exchanger housing ( 1 ) according to one of claims 1 to 3, characterized by a respective inlet side (in relation to the first fluid) ( 21 ) and exit-side ( 31 ) Connection part. Heat exchanger housing ( 1 ) according to one of claims 1 to 4, further comprising at least one second fluid connection ( 15.1 . 15.2 ), in particular at least one connecting piece, for the second fluid, wherein the at least one second fluid connection ( 15.1 . 15.2 ) integral with the housing body ( 10 ) is formed. Heat exchanger housing according to one of claims 1 to 5, characterized in that a connection part ( 21 . 31 ) an inlet border ( 17 ) for the first fluid and this inlet border ( 17 ) and an inlet border of the bypass channel ( 40 ) in the same place an elongated extension of the housing body ( 10 ) are formed, in particular the inlet borders ( 17 . 19 ) at the connection part ( 21 . 31 ) as a common part of the housing body ( 10 ) is formed. Heat exchanger housing ( 1 ) according to one of claims 1 to 6, characterized in that a connection part ( 21 . 31 ) and a second fluid connection ( 15.1 . 15.2 ) in the same place an elongated extension of the housing body ( 10 ) are formed, in particular the second fluid connection ( 15.1 . 15.2 ) at the connection part ( 21 . 31 ) as a common part of the housing body ( 10 ) is formed. Heat exchanger housing ( 1 ) according to one of claims 1 to 7, characterized in that on an inner side ( 29 ), in particular transversely to an elongated extension of the housing body ( 10 ), a socket ( 11 ), in particular a cross-sectionally trapezoidal base ( 11 ), integral with the housing body ( 10 ) is formed. Heat exchanger housing ( 1 ) according to one of claims 1 to 8, characterized in that cooling ribs, in particular circumferentially and / or along an elongated extent of the housing body ( 10 ) extending cooling fins, integral with the housing body ( 10 ) are formed. Heat exchanger housing ( 1 ) according to one of claims 1 to 9 in the form of a casting, in particular a precision casting, die casting or injection-molded part, preferably in the form of an aluminum, or steel or plastic part. Heat exchanger housing ( 1 ) according to one of claims 1 to 10, characterized in that a bypass channel cross section is rectangular, oval or semi-oval. Heat exchanger or assembly with one or more heat exchangers, in particular exhaust gas heat exchanger and / or charge air heat exchanger, for heat exchange between a first fluid, in particular an exhaust gas ( 8th ) or a charge air, and a second fluid, in particular a coolant ( 6 ), comprising: - a block for the separate and heat exchanging guidance of the first and second fluid, which block a heat exchanger housing ( 1 ) with integrated bypass channel ( 4 ), according to one of the preceding claims, and one in the heat exchanger housing ( 1 ) recorded number of the first fluid can flow through flow channels. Heat exchanger or assembly according to claim 12, characterized in that, at least one first fluid connection, in particular a box and / or a box cover, which is flow-connected to the flow channels, at a connecting part ( 21 . 31 ) of the housing body ( 10 ) is arranged. Heat exchanger or assembly according to claim 12 or 13, characterized in that the fluid connection in the form of a diffuser, in particular an inlet diffuser and / or outlet DIF fusors, is formed. Heat exchanger or assembly according to one of claims 12 to 14, characterized in that a block closure element for separating the chamber and a first fluid connection for the first fluid, at a connection part ( 21 . 31 ) of the housing body ( 10 ), wherein the block closure element, in particular a bottom, is provided with one or more passage openings for the flow channels. Heat exchanger or assembly according to one of Claims 12 to 15, comprising a bypass control device for adjusting the exhaust gas passage through the at least one Heat exchanger, in particular a valve device and / or Bypass, and / or a valve, in particular an exhaust gas recirculation valve. Heat exchanger or assembly according to one of Claims 12 to 16, characterized in that a Control device in the first, preferably input side, fluid connection is integrated, in particular a bypass flap in a diffuser is integrated. Heat exchanger or assembly according to one of claims 12 to 17, comprising a high-temperature heat exchanger ( 2 ) and / or low-temperature heat exchanger ( 3 ), wherein the low-temperature heat exchanger ( 3 ) downstream of the high-temperature heat exchanger ( 2 ) is arranged. Exhaust gas recirculation system for an internal combustion engine, comprising an exhaust gas recirculation, a compressor and characterized by a heat exchanger or assembly according to any one of claims 12 to 18 in the form an exhaust gas heat exchanger, in particular -Kühlers. Charge air supply system for one Internal combustion engine, having a charge air intake, an air filter, a compressor and characterized by a heat exchanger or assembly according to any one of claims 12 to 18 in the form a charge air heat exchanger, in particular -Kühlers. Use of the heat exchanger or assembly, according to one of claims 12 to 18, for an internal combustion engine, in particular a diesel engine or gasoline engine, a motor vehicle.